EP0484563A1 - Fence for avalanches, rockfall or felling - Google Patents

Abstract

The fence is equipped with at least two suspension ropes (8, 9), guided independently of one another and having at least two suspension-rope areas, and/or with at least two base ropes (12, 13) guided independently of one another and having at least two base-rope areas. When there are several suspension ropes (8, 9), the net (18) is fastened in each successive suspension-rope area to a different suspension rope (8, 9), and, when there are several base ropes (12, 13), the net (18) is connected in each successive base-rope area to a different base rope (12, 13). The rope-tackle brake elements (14, 15, 16, 17) provided for each suspension rope (8, 9) and for each base rope (12, 13) are attached to suspension-rope areas of the suspension ropes (8, 9) free from the net (18) when there are several suspension ropes (8, 9) and to base-rope areas of the base ropes (12, 13) free from the net (18) when there are several base ropes (12, 13). The fence serves to catch avalanches, rockfalls and felled timber. <IMAGE>

Description

The present invention relates to a safety fence for avalanches, stone chipping or logging with at least one net fastened with its upper edge to a suspension cable and with its lower edge to a floor cable guided near the ground, with supports supporting the suspension cable at a distance from the ground and when crossing a predetermined cable pulling force the extension of the suspension cable and the floor cable with energy absorption allowing cable brake elements.

A safety fence of the type mentioned at the outset is known from the company brochure 'Isostop-Netze' from Isofer AG, CH-8934 Knonau. In this safety fence there is a hanging rope and a bottom rope which carry the net. Both the hanging rope and the bottom rope are Equipped with rope brake elements in the net area, which allow the ropes to be extended when the rope is under high energy loads Traffic routes, such as roads, railways or waterways, can also be used outside the areas of traffic routes to protect people, animals or buildings - if the well-known safety fence under very steep and high mountain slopes with an above-average drop height or in general in place n Where masses with above-average kinetic energy have to be absorbed, rope or network tears can occur. In such places, the well-known safety fence is not up to the task.

The object of the present invention is to develop a safety fence which can absorb avalanches, rockfalls and long wood slides with above-average kinetic energy, which can easily be made operational again after catching avalanches, stone chips or logging and is economically advantageous.

The object is achieved in that at least two suspension ropes are guided independently of one another and have at least two suspension rope areas and / or at least two floor ropes which are guided independently of one another and have at least two floor rope areas are provided and the network is fastened to a different suspension rope in the case of several suspension ropes in each successive suspension rope area and is connected to a different floor rope in the case of several floor ropes in each successive floor rope area and which is connected for each suspension rope and for each floor cord provided cable brake elements are connected to a number of suspension ropes on suspension rope areas of the suspension ropes free of the network and for several floor ropes to floor rope areas of the floor ropes free of the network. These measures ensure that when a mass with relatively large kinetic energy is caught, with an extension of the suspension and / or the floor rope by responding to the cable brake elements, the network does not have to absorb any locally limited expansion, because the cable brake elements and the network are within a suspension cable and one Bottom rope area are attached to separate ropes. In addition, this arrangement is advantageous because after catching avalanches, stone chips or logging, the extended cable brake elements can be easily replaced, since they are connected to exposed cables that are independent of the network. Thanks to this arrangement, the distance between the supports can also be chosen larger, which on the one hand reduces the likelihood of the supports directly hitting the falling mass and on the other hand achieves economic advantages.

From the installation of the safety fence, it is advantageous if the suspension cable areas of the suspension cables and the floor cable areas of the floor cables lie between the adjacent supports.

To save floor anchoring, the floor cables can be guided on the foot parts of the supports.

In order to improve the protective effect of the safety fence against falling masses with relatively small dimensions by more precise floor guidance, more floor-anchored guide elements can be provided for the floor cables connected to the network than supports are available. For the same purpose, in the case of floor ropes guided on the foot part of the supports, the floor rope connected to the network can be guided near the floor between two supports by means of floor anchors. To prevent rope cracks when large masses hit, a rope can be inserted between the floor rope and the floor anchor Cable brake element can be arranged.

Fig.1

einen Auffangzaun in Vorderansicht,

Fig.2

in Seitenansicht und

Fig.3

von oben.

In the following an embodiment of the invention will be described with reference to the accompanying drawings. Show it:

Fig. 1

a safety fence in front view,

Fig. 2

in side view and

Fig. 3

from above.

In Figure 1, a safety fence is shown schematically in the front view. Fig. 2 shows this safety fence in a simply indicated steep slope from the side. The fir trees shown schematically in this figure have a purely symbolic character and in particular do not provide any information about the scale relationships with the safety fence.

There are four supports 1, 2, 3, 4 which are pivotally anchored to the floor and which are fastened to the floor anchors 6 lying upward from the foot parts of the supports 1, 2, 3, 4 by means of retaining ropes 5. These restraining cables 5 are equipped with cable brake elements 7. These cable brake elements 7 are described, for example, in Swiss Patent No. 668,300 and are capable of allowing the retention cables 5 to be extended while absorbing energy when a predetermined cable force is exceeded.

The supports 1, 2, 3, 4 lead at their upper end region spaced from the floor two suspension cables 8, 9, which are braced laterally on the floor anchors 10 and 11. The suspension cables 8, 9 are guided in the supports 1, 2, 3, 4 in a longitudinally displaceable manner. On the foot parts of the supports 1, 2, 3, 4, two floor cables 12, 13 are guided so as to be longitudinally displaceable near the floor. Both the suspension cables 8, 9 and the bottom cables 12, 13 are equipped with cable braking elements 14, 15, 16, 17. When a predetermined rope tensile force is exceeded, the rope held in a loop shape under frictional engagement and deformation slips, the loop becomes smaller and the elongated rope becomes longer. With this rope extension, energy is consumed at the friction and deformation points of the rope, as described in the aforementioned Swiss patent. In principle, any other suitable cable brake element can also be used.

The safety fence shown in FIGS. 1, 2 and 3 is equipped with two suspension ropes (8, 9) having three suspension rope areas and with two floor ropes (12, 13) having three floor rope areas. The suspension rope areas and the floor rope areas lie between the adjacent supports 1 and 2, 2 and 3, 3 and 4. A network 18 of wire rope is provided which is intended to catch avalanches, stone chips and logging. This net 18 is fastened to a different suspension rope 8, 9 in each successive suspension rope area and is connected to another floor rope 12, 13 in each successive floor rope area. So it is fixed between the supports 1 and 2 and 3 and 4 with its upper edge on the suspension cable 9 and connected to the lower cable 13 at its lower edge. Between the supports 2 and 3, the network 18 is attached to the other suspension cable 8 and connected to the other floor cable 12. The cable brake elements 14, 15, 16, 17 are inserted into the suspension cable 8, 9 or floor cable 12, 13 which is free of the network 18. So the cable brake elements 14 and 16 are inserted between the supports 1 and 2, or 3 and 4 in the suspension cable 8 and in the bottom cable 12. Between the supports 2 and 3, however, the cable brake elements 15 and 17 can be found in the suspension cable 9 and in the bottom cable 13.

In order to maintain the protective effect of the collecting fence also for small rubble, the most accurate possible ground adaptation is sought for the net 18. This precise floor guidance is generally achieved by providing more floor-anchored guide elements than supports 1, 2, 3, 4. Thus, the net 18 is additionally guided between the two supports 2 and 3 via the floor cable 12 through a floor anchor 19. A cable brake element 20 is arranged between the bottom cable 12 connected to the network 18 and the bottom anchor 19.

The safety fence works as follows:
Assume that a large stone falls into the net 18 between the supports 2 and 3. In this case, the net 18 will extend downward in this area and take along the ropes, the suspension rope 8 and the bottom rope 12, which hold the net 18 in this area. These ropes have to give way and absorb the impact of the stone by absorbing energy. The cable brake elements 14 and 16 lying in the adjacent areas, between the supports 1 and 2 and 3 and 4, fulfill this task. The ropes carrying the net 18, The suspension rope 8 and the bottom rope 12 are not stretched between the supports 2 and 3 when the stone mentioned is caught in the catchment area, as a result of which any network cracks can be avoided. The rope attached to the ground anchor 19 is connected via the cable brake element 20 to the bottom rope 12 carrying the net 18, so that the bottom rope 12 can also expand downwards at this point and does not tear. The cable brake element 20 also draws energy from the network 18 and contributes to damping the impact of the assumed stone. Since the pivotable supports 1, 2, 3, 4 are attached to the floor anchors 6 via cable brake elements 7, these cable brake elements 7 will also respond to energy absorption when a large, high-energy mass hits the network 18 and allow the retention cables 5 to be extended. The restraint ropes 5 thus also contribute to damping the impact of the assumed stone. The processes are similar when masses with high kinetic energy hit one another or between several supports 1, 2, 3, 4.

Due to the fact that the suspension ropes and the floor ropes are divided into several areas of the same length and the network is attached to ropes without cable brake elements within the individual areas and the cables carrying the network have cable brake elements directly in the next adjacent areas, the safety fence can avalanches, rockfalls and catch logs with above average kinetic energy. It is essential that the cable brake elements are arranged in the immediate vicinity of the cable parts carrying the net, in order not to unnecessarily stress the supports and power packs located outside the catchment area.

The masses collected by the safety fence, possibly with the exception of snow, must be removed from the network 18 at the latest when the cable brake elements are fully extended. The ropes stretched when catching a large mass, suspension ropes 8, 9, floor ropes 12, 13, retaining ropes 5 must be tensioned again and the extended cable brake elements 7, 14, 15, 16, 17, 20 must be replaced. In the arrangement described, the replacement of the extended cable brake elements 7, 14, 15, 16, 17, 20 is particularly simple because these elements are connected to exposed cables, mostly via easily detachable cable coupling elements. The operational readiness of the safety fence can therefore be restored inexpensively and simply.

Of course, a safety fence with the claimed features can also be designed with rigid instead of pivoting supports. In the case of rigid supports, the restraining cables are generally not required.

Claims (5)

Safety fence for avalanches, stone chipping or logging with at least one net fastened with its upper edge to a suspension cable and with its lower edge to a floor cable guided near the ground, with supports holding the suspension cable at a distance from the ground and with the extension if a predetermined cable pulling force is exceeded the cable brake elements in the network area which allow the suspension and the floor cable to take up energy, at least two suspension cables (8, 9) having at least two suspension cable areas and at least two floor cables (12, 13) having at least two floor cable areas are provided and the network (18 ) attached successively in each of the suspension rope areas arranged in a row to a different suspension rope (8, 9) and connected in succession in each of the floor rope areas arranged in a row to another floor rope (12, 13) and which for each suspension rope (8, 9 ) and for each floor cable (12, 13) provided cable brake elements (14, 15, 16, 17) on suspension cable areas of the suspension cables (8, 9) free of the net (18) and on floor rope areas of the floor cables (12, 13) free of the network (18) are connected, characterized in that both the two suspension cables (8, 9) and the two bottom cables (12, 13) are guided independently of one another on each support (1, 2, 3, 4) and the suspension cable areas of the suspension cables (8, 9) and the bottom rope areas of the bottom ropes (12, 13) lie between two adjacent supports (1, 2, 3, 4). Safety fence according to claim 1, characterized in that the floor cables (12, 13) are guided on the foot parts of the supports (1, 2, 3, 4). Safety fence according to one of claims 1 to 2, characterized in that for the floor ropes (12, 13) connected to the net (18) there are more floor-anchored guide elements than supports (1, 2, 3, 4). Safety fence according to claims 1 and 2, characterized in that the floor cable (12) connected to the net (18) is guided near the floor between two supports (2, 3) by means of floor anchors (19). Safety fence according to claim 4, characterized in that a cable brake element (20) is arranged between the floor cable (12) and the floor anchor (19).

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